CN211237270U - Missile hooking vehicle simulation training system based on mixed reality - Google Patents

Abstract

The utility model discloses a missile hooking vehicle simulation training system based on mixed reality, which comprises an industrial control host, a remote operation module connected with the industrial control host, a simulation missile hooking vehicle control unit and mixed reality equipment; the industrial control host sends a control instruction to the remote operation module and the simulated missile hooking vehicle control unit, receives information fed back by the remote operation module and the simulated missile hooking vehicle control unit, and simultaneously sends the information to the mixed reality equipment; the remote operation module comprises a first communication module, a first control unit and image acquisition equipment; the simulated missile hanging vehicle control unit comprises a second communication module and a second control unit; the mixed reality device includes a carpet communication unit and a mixed reality helmet. The utility model discloses a mixed reality's mode carries out the bullet car simulation training, and the user can wear mixed reality helmet and observe the various operations of learning aircraft bullet car in real time to can carry out operations such as simulation operation interactive learning, driving assistance and remote maintenance. The pictures can be transmitted to a large screen in real time through projection for other students to watch and study.

Description

Missile hooking vehicle simulation training system based on mixed reality

Technical Field

The utility model relates to a military project is equipped, especially relates to a bullet hanging vehicle simulation training system based on mixed reality.

Background

The missile hanging vehicle is very important military security equipment. In modern combat environments, shortening the attack time of a combat aircraft as much as possible becomes an important factor in the aviation combat power, wherein the effect of rapid ammunition is self-evident in shortening the attack time of a combat aircraft. When the combat aircraft is subjected to missile hanging, personnel are required to coordinate, the missile hanging failure is easily caused by human errors, and even equipment is damaged. Training the operators of the ammunition hanging vehicles to improve the safety and efficiency of ammunition hanging has become a critical affair. Present artifical string bullet training efficiency is lower, receives the influence in place moreover easily.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to the above-mentioned problem, provide a bullet car simulation training system hangs based on mixed reality.

In order to achieve the above object, the utility model provides a following technical scheme: the missile hooking vehicle simulation training system based on mixed reality comprises an industrial control host, a missile hooking vehicle control unit connected with the industrial control host and mixed reality equipment; the industrial control host is used for receiving and processing the control instruction sent by the control unit of the missile hooking vehicle and sending the processed picture and the instruction to the mixed reality equipment.

Furthermore, the missile hanging vehicle control unit comprises a missile hanging vehicle remote controller and a missile hanging vehicle simulation control platform.

Furthermore, the industrial personal computer receives a control signal of the missile hooking vehicle remote controller through the remote controller receiver.

Furthermore, the industrial control host receives a control signal of the missile hanging vehicle simulation control console through the control console receiver.

Further, mixed reality equipment is mixed reality helmet, through wifi and industrial control host computer communication connection.

Further, the missile hooking vehicle remote controller and the missile hooking vehicle simulation console transmit control signals to the remote controller receiver and the console receiver through wifi communication, Bluetooth communication or 4G communication.

Further, the system also comprises an image acquisition device arranged on the mixed reality helmet; the image acquisition equipment is a high-definition camera and is used for shooting during operation, and the shot picture and the simulated picture form a mixed reality picture.

And the projector is connected with the industrial control host through a data line and projects the picture simulated in the industrial control host or transmitted back from the image acquisition equipment to the curtain.

The utility model has the advantages that: the missile hooking vehicle simulation training is carried out in a mixed reality mode, a user can wear a mixed reality helmet to observe and learn various operations of the aircraft missile hooking vehicle in real time, simulation operation interactive learning can be carried out, and operations such as driving assistance and remote maintenance are carried out. The pictures can be transmitted to a large screen in real time through projection for other students to watch and study. The training efficiency is high, and the training is not influenced by the field.

Drawings

Fig. 1 is a diagram of a mixed reality-based missile loading vehicle simulation training system.

Detailed Description

In order to clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will be described with reference to the accompanying drawings.

In this embodiment, as shown in fig. 1, the missile hooking vehicle simulation training system based on mixed reality includes an industrial control host, a missile hooking vehicle control unit connected to the industrial control host, and mixed reality equipment; the industrial control host is used for receiving and processing the control instruction sent by the control unit of the missile hooking vehicle and sending the processed picture and the instruction to the mixed reality equipment.

Furthermore, the missile hanging vehicle control unit comprises a missile hanging vehicle remote controller and a missile hanging vehicle simulation control platform; the industrial control host receives a control signal of the missile hooking vehicle remote controller through the remote controller receiver; the industrial control host receives a control signal of the missile hooking vehicle simulation console through the console receiver; the mixed reality equipment is a mixed reality helmet and receives a control signal of the industrial control host through wifi; the ammunition carrier remote controller and the ammunition carrier simulation control console send control signals to the remote controller receiver and the control console receiver through wifi communication, Bluetooth communication or 4G communication. And the projector is connected with the industrial control host through a data line and projects the picture simulated in the industrial control host or transmitted back from the image acquisition equipment to the curtain.

Further, the system also comprises an image acquisition device arranged on the mixed reality helmet; the image acquisition equipment is a high-definition camera and is used for shooting during operation, and a shot picture and an analog picture form a mixed reality picture; the screen projection system further comprises a projector which is connected with the industrial personal computer through a data line and projects the picture simulated in the industrial personal computer or transmitted back from the image acquisition equipment to the screen.

The utility model discloses when using, the training personnel wear the mixed reality helmet, and the mixed reality helmet will be trained hang the bullet car and hang the virtual play of bullet scene to show on the helmet, make the person of wearing can see the virtual play hang the bullet car and hang the bullet scene. The mixed reality helmet is communicated with the industrial control host through the router, can receive a control command in the industrial control host, converts the control command into a control command of the virtual missile hanging vehicle, drives the virtual missile hanging vehicle to move and adjust the posture, and finishes missile hanging, maintenance and exhibition of the missile hanging vehicle in a virtual environment. The remote controller and the simulation control console of the missile hooking vehicle are used for the missile hooking vehicle to be used actually, training personnel operate the remote controller and the simulation control console of the missile hooking vehicle, the remote controller and the control console are communicated with corresponding receivers, the receivers send received signals to the industrial control host, and the industrial control host converts the received receiver signals into control instructions and sends the control instructions to the mixed reality helmet through the router. Meanwhile, the industrial control host projects the picture through the projector for other training and teaching personnel to watch.

The utility model discloses a mixed reality's mode is hung bullet car simulation training, and the user can wear mixed reality helmet real-time observation study and hang various operations of bullet car to can carry out the interactive study of analog operation, drive supplementary and remote maintenance etc. operation. The pictures can be transmitted to a large screen in real time through projection for other students to watch and study. The training efficiency is high, and the training is not influenced by the field.

The basic principles and main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The missile hooking vehicle simulation training system based on mixed reality is characterized by comprising an industrial control host, a missile hooking vehicle control unit connected with the industrial control host and mixed reality equipment; the industrial control host is used for receiving and processing the control instruction sent by the control unit of the missile hooking vehicle and sending the processed picture and the instruction to the mixed reality equipment.

2. The hybrid reality-based missile hooking vehicle simulation training system of claim 1, wherein the missile hooking vehicle control unit comprises a missile hooking vehicle remote control and a missile hooking vehicle simulation console.

3. The missile hooking vehicle simulation training system based on the mixed reality of claim 1 or 2, wherein the missile hooking vehicle remote controller and the industrial control host transmit control instructions through a remote controller receiver; and the missile hanging vehicle simulation control console and the industrial control host machine transmit control instructions through the console receiver.

4. The mixed reality-based missile hooking vehicle simulation training system of claim 1, wherein the mixed reality equipment is a mixed reality helmet and is in communication connection with an industrial control host through wifi communication.

5. The missile hooking vehicle simulation training system based on mixed reality of claim 1, wherein the missile hooking vehicle remote controller and the missile hooking vehicle simulation console send control signals to the remote controller receiver and the console receiver through wifi communication, bluetooth communication or 4G communication.

6. The mixed reality based missile hooking vehicle simulation training system of claim 4, further comprising an image acquisition device mounted on a mixed reality helmet; the image acquisition equipment is a high-definition camera and is used for shooting during operation, and the shot picture and the simulated picture form a mixed reality picture.

7. The missile hooking vehicle simulation training system based on the mixed reality as claimed in claim 1, further comprising a projector connected with the industrial personal computer through a data line to project a picture simulated in the industrial personal computer or transmitted back from the image acquisition device to the curtain.

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